Showing posts with label Astrobiology. Show all posts
Showing posts with label Astrobiology. Show all posts

06 May 2010

ETs are Already Here! 7MAY2010

Life at the Extremes: Microbes, Salt and Pressure - 1 of 6


posted on YouTube by CarnegieInstitution (418 views) 2009年06月19日
— Adrienne Kish is an astrobiologist with an interest in the microbiology and molecular biology of extremophiles exposed to the types of environmental conditions found on planetary bodies such as Mars and the icy moons of Jupiter and Saturn.

Life at the Extremes: Microbes, Salt and Pressure - 2 of 6


posted on YouTube by CarnegieInstitution (139 views) 2009年06月19日

Life at the Extremes: Microbes, Salt and Pressure - 3 of 6


posted on YouTube by CarnegieInstitution (72 views) 2009年06月19日

Life at the Extremes: Microbes, Salt and Pressure - 4 of 6
posted on YouTube by
CarnegieInstitution (65 views) 2009年06月19日

Life at the Extremes: Microbes, Salt and Pressure - 5 of 6


posted on YouTube by CarnegieInstitution —(33 views) 2009年06月19日

Life at the Extremes: Microbes, Salt and Pressure - 6 of 6
posted on YouTube by CarnegieInstitution (36 views) 2009年06月19日

21 May 2009

ASTEROIDS MAY HAVE ACCELERATED LIFE ON EARTH 21MAY09


NASA STUDY SHOWS ASTEROIDS MAY HAVE ACCELERATED LIFE ON EARTH
20MAY09 WASHINGTON --

A NASA-funded study indicates that an intense asteroid bombardment nearly 4 billion years ago may not have sterilized the early Earth as completely as previously thought. The asteroids, some the size of Kansas, possibly even provided a boost for early life. The study focused on a particularly cataclysmic occurrence known as the Late Heavy Bombardment, or LHB.

This event occurred approximately 3.9 billion years ago and lasted 20 to 200 million years. In a letter published in the May 21 issue of Nature magazine titled "Microbial Habitability of the Hadean Earth during the Late Heavy Bombardment," Oleg Abramov and Stephen J. Mojzsis, astrobiologists at the University of Colorado's Department of Geological Sciences, report on the results of a computer modeling project designed to study the heating of Earth by the bombardment.

Results from their project show that while the Late Heavy Bombardment might have generated enough heat to sterilize Earth's surface, microbial life in subsurface and underwater environments almost certainly would have survived.

"Exactly when life originated on Earth is a hotly debated topic," said Michael H. New, the astrobiology discipline scientist and manager of the Exobiology and Evolutionary Biology Program at NASA Headquarters in Washington.

"These findings are significant because they indicate that if life had begun before the LHB or some time prior to 4 billion years ago, it could have survived in limited refuges and then expanded to fill our world."

"Our new results point to the possibility life could have emerged about the same time that evidence for our planet's oceans first appears," said Mojzsis, principal investigator of the project.

A growing scientific consensus is that during our solar system's formation, planetary bodies were pummeled by debris throughout the Late Heavy Bombardment. A visual record of the event is preserved in the form of the scarred face of our moon. On Earth, all traces of the bombardment appear to have been erased by rock recycling forces like weathering, volcanoes or other conditions that cause the crust to move or change. Surface habitats for microbial life on early Earth would have been destroyed repeatedly by the bombardment.

However, at the same time, impacts could have created subsurface habitats for life, such as extensive networks of cracks or even hydrothermal vents. Any existing microbial life on Earth could have found refuge in these habitats. If life had not yet emerged on Earth by the time of the bombardment, these new subsurface environments could have been the place where terrestrial life emerged.

"Even under the most extreme conditions we imposed on our model, the bombardment could not have sterilized Earth completely," said Abramov, lead author of the paper. "Our results are in line with the scientific consensus that hyperthermophilic, or 'heat-loving,' microbes could have been the earliest life forms on Earth, or survivors from an even more ancient biosphere.

The results also support the potential for the persistence of microbial biospheres on other planetary bodies whose surfaces were reworked by the bombardment, including Mars." NASA's Astrobiology Program's Exobiology and Evolutionary Biology Program and the NASA Astrobiology Institute at NASA's Ames Research Center at Moffett Field, Calif., through its support of NASA's Postdoctoral Program, provided funding for this research.

The Astrobiology Program supports research into the origin, evolution, distribution and future of life on Earth and the potential for life elsewhere.

For more information about NASA's astrobiology activities, visit:



May 20, 2009
Dwayne Brown Headquarters, Washington 202-358-1726 dwayne.c.brown@nasa.gov
Jim Scott University of Colorado, Boulder 303-492-3114 jim.scott@colorado.edu
RELEASE: 09-111

06 April 2009

Meteorite News 6APR09

Great ball of fire! Shooting star spotted over Ireland sparks ...
Daily Mail
By Daily Mail Reporter
Security cameras in Ireland may help scientists to find a meteorite that streaked to Earth on Sunday night. ...

Hunt is on to catch a fallen meteorite
Irish Independent - Dublin,Ireland
EXCITED astronomers are hot on the trail of a meteorite they believe may have struck Ireland on Saturday night. For a few seconds around midnight on ...

How Life Shatters Chemistry's Mirror
Astrobiology Magazine - USA
"We're still in the dark how it happened," says Sandra Pizzarello from Arizona State University, who has analyzed many of the meteorite samples. ...
http://www.astrobio.net/news/index.php?name=News&file=article&sid=3092

Astronomers make unprecedented asteroid impact observations
Gizmag - Victoria, Australia
The measurements taken by the Herschel Telescope in La Palma were now compared with the direct analysis of the meteorite shards. The two were found to be in ...
http://www.gizmag.com/astronomers-asteroid-hit-the-earth/11395/

What's in a name? Lake Drummond, Great Dismal Swamp
The Virginian-Pilot - Norfolk,VA,USA
Theories abound about its origin, a meteorite, an intense peat fire, a tectonic shift. There is even a Native American legend that a great " fire bird" ...
http://hamptonroads.com/2009/04/whats-name-lake-drummond-great-dismal-swamp

Why ET's genetic code could be just like ours
MIT Technology Review - Cambridge, MA,USA
Curiously, analyses of meteorite samples have found exactly these same 10 amino acids. Various researchers have noted this link but none have explained it. ...
http://www.technologyreview.com/blog/arxiv/23309/